DE2057774A1 - Mast or tower construction - Google Patents

Description

The invention relates to a mast or tower construction,

There are already mast or tower constructions that consist of three or four main pillar members, horizontal and inclined load-bearing members, which, the main pillars - connect links with each other, and auxiliary bracing © - members to connect the horizontal and inclined support members exist. In addition, there are already so- called lattice masts or towers, which have a large number of straight, inclined or inclined members each have the same dimensions. which from the floor to the To the top of the construction. These links cross each other at acute angles, forming a latticework and are connected to one another at predetermined heights "by horizontal links. In both cases, dia Constructing buildings erected according to a heightening process, in which a lower building section on a The foundation is fixed and a second section is built on this lower section by adding the necessary components by means of a crane mounted on top of the lower section, and so on until the

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POST CENTER: 8 Munich 90, Eduard-Schmld-Str. 2

full height of the structure is reached, once a section is completed, the crane is relocated higher and for used the construction of the next higher section.

It has been shown that this known construction method at the erection of very tall towers or masts show certain disadvantages. In the first-mentioned type of construction The three or four main pillar links must be essential have a larger cross-section than the horizontal and diagonal members. An increase in the size of the structure leads "but to a considerable increase in the weight of the main pillar and, consequently, to an increase in the weight of the finished structure. In addition, this makes it necessary to increase the span between the feet of the tower or mast. As a result of the increasing weight, a larger crane is also required to move it for erection The necessary limbs of the structure to be lifted while handling the heavier weights creates greater dangers and gives rise to difficulties. In the case of a lattice tower, difficulties arise with the one taking place on the construction site Manufacture and assembly of the load-bearing components. The oblique struts cross each other at acute angles, and the connections between the oblique links and the horizontal links as well as the shapes vary in Depending on the relevant position in the structure, Off for this reason, numerous connections of different shapes and sizes are required.

The object of the invention is therefore primarily to create a mast or tower construction that spawns from manufacturable components can be built and can be easily assembled and enlarged.

This object is achieved in that the

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horizontal struts define the outlines of horizontal regular figures that the nodes on the Outlines of these figures lie and the inclined struts connect different figures with each other that the largest diameter of the figures decreases progressively from the ground to the top of the structure and that the oblique struts are bent at the junctions.

Each inclined component or each strut can be a one-piece link that bends at different points which correspond to the connections of the combined isosceles triangle girders in the finished structure. Optionally, the struts can each consist of several straight pieces that are used to determine the required Bend to be connected to each other at the junctions in the turin construction. The oblique struts can be bent at every junction or every other junction in the structure.

The horizontal, regular figure, the outline of which is determined by the horizontal struts, is normal a polygon, for example an octagon. The nodes, at. which are the horizontal and the inclined struts meet are located at the tips or corners of the polygon. However, curved horizontal struts can also be used can be used so that the horizontal regular figure is a circle.

Preferably, those horizontal regular figures that have nodes at which the inclined Struts are curved, additional horizontal struts are provided for further stiffening. These additional horizontal Struts connect the various nodes

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in the outline of the horizontal regular figure.

The following are preferred embodiments of the invention explained in more detail in comparison to the prior art with reference to the drawings. Show it:

Fig. 1 is a side view of a conventional fattening or _o tower structure with four main pillars,

Fig. 2 is a side view of a conventional lattice mast or tower,

5 is a side view of a mast or tower structure. tion with the features of the invention,

FIG. 4 shows a section along the line IV-IV in FIG. 3j

FIG. 5 is a view of the construction according to FIG Seen in the direction of arrows V-V in Fig. 4,

6, 7 and 8 sections along the lines VI-VI, VII-VII and VIII-VIII in Fig. 3,

9, 10, 11 and 12 are cross-sectional views similar to FIG. 6 of other embodiments of the invention Construction,

13 shows a side view of a modified embodiment of the construction according to the invention and

14 is a side view of a conventional lattice tower or towers.

The known mast or lurm WeI shown in Fig. 1, fit

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four main pillars 01 on which are supported by horizontal links or struts 02 are connected to one another, which in turn are connected by diagonal links or struts 03 and auxiliary Links or struts 04 are braced.

The lattice structure according to FIG. 2 has straight, inclined components or struts O3 ¹ , which extend from the lower end to the top of the structure and intersect at acute angles. The inclined struts 03 'are connected to one another at predetermined heights by horizontal members 02'.

The illustrated in FIGS. 3 to 8 according to the invention Mast or tower construction rests on a foundation 2 and serves to support four chimneys 3 · The structure 1 consists of inclined or inclined load-bearing members or struts 4 and horizontal load-bearing members or Struts 6, which are connected to one another to form isosceles triangular girders at nodes 5 » According to FIGS. 4-8, the nodes 5 are on clen Corners of horizontal regular octagons. The largest diameter of these octagons is continuously decreasing from the ground to the top of the structure 1. The side edges of the Octagons are formed by the horizontal struts 6, with all horizontal struts 6 in an octagon each have the same length. Each of the sixteen inclined struts 4- extends continuously from the ground in a spiral shape to the top of the structure and indicates every other regular Octagon at the nodes 5 a bend on

In Fig. 4- is at 7 the arrangement of the lower end of the Building 1 indicated on the foundation ». Figures 6, 7 and 8 show the arrangement of horizontal auxiliary struts 8, which are provided in the octagons, in which the oblique

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are bent towards struts,

Fig. 9 illustrates an embodiment of the invention for supporting three chimneys, the structure in each horizontal regular figure has six nodes; i.e. every horizontal regular figure is a Hexagon · Figures 10, 11 and 12 illustrate other embodiments of the invention in which seven, eight or nine nodes are provided so that the horizontal regular figure is a heptagon, an octagon or forms a hexagon. The number of nodes in each horizontal figure will depend on the size and chosen by the purpose of the structure.

13 is a side view of a structure according to the invention; in which each horizontal regular figure contains sixteen nodes. Fig. 14 is a similar one View of a known lattice structure of the same size as the tower of FIG. 13. A comparison of the two Structures according to FIGS. 13 and 14- shows that the former ever has two different configurations from the perspective and is essentially conical, while the structure according to FIG 14 always has the same shape as a hand drum regardless of the viewing direction. Also changes the cross-section defined by the horizontal struts is at different heights in the structure. From the Figures shows that when using the same number of inclined struts, the number of nodes in one selected horizontal regular figure of the building according to the invention half the number of nodes in a selected horizontal figure of the lattice tower is'. In addition, the number of horizontal Striving in a horizontal figure of the invention

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Structure half of the same struts in the lattice tower, while the horizontal struts also all have the same size and are therefore interchangeable with each other · In the known lattice tower, however, the horizontal struts have different sizes. The oblique struts extending from the ground to the top of the structure intersect at an acute angle. In the case of the structure according to the invention, the angle of intersection between the inclined struts is not quite so acute, so that the production of the connection at the nodes is simplified. i

The structures according to the invention can also be used with the conventional one Compare the square tower according to FIG. 1. While the number of supporting links or struts of a distance between the horizontal struts 02 in the square tower is much smaller than in the structure according to the invention - in the structure according to FIG. 3 there are 24 struts and in the structure according to FIG. 13 there are 48 struts - that is the number the nodes practically the same. For example, are in a line between adjacent horizontal regular Figures in the structure according to FIG. 3 eight, in the structure according to FIG. 13 sixteen and in the tower according to FIG. 1 twelve to sixteen nodes available, the conventional square - f Mast or tower according to FIG. 1 requires four dimensionally different types of struts and other components, namely Main pillars 01, horizontal struts 02, inclined struts 03 and auxiliary struts 04. In contrast, the invention According to buildings, obviously only two types of components required, namely the inclined struts 4 and the horizontal struts 6. In addition, the known. Square tower has two or three different types of nodal point constructions, while in the case of the invention Buildings the nodes are each of the same type and interchangeable. In the case of a large construction

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At the factory, the main pillars QA of a square tower are extremely heavy compared to the other components, since they carry the greatest load, so that they must have a particularly large cross-section. In the structures according to the invention, the unit weight of the individual components is significantly lower than that of the main pillars of the square tower, since all diagonal struts are used to take the load and these members can have a uniform cross-section. The manufacture, assembly and transport of the components required for erecting a structure according to the invention are therefore simple in comparison to the conventional square or lattice tower. In addition, the components required to erect a large tower according to the invention can be lifted and assembled with the aid of a crane, which can be significantly smaller than the crane used to erect a conventional triangular or square tower of the same size and height *

Another advantage of the invention is that the necessary for the construction of a structure according to the invention Total steel amount considerably less than idfc that for the erection of a conventional square tower of the same size required amount of steel. This difference becomes even more evident the larger the building becomes.

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Claims (1)

_. 9 - Claims Mast or turin construction with horizontal struts and inclined struts that converge at nodes and combined isosceles triangular beams, characterized in that the horizontal Struts (6) define the outlines of regular horizontal figures that form the nodes (5) lie on the outlines of these figures and the inclined struts (4) each have different figures connect so that the largest diameter of the figures from the ground to the top of the structure (1) progressively reduced and that the inclined struts are bent at the nodes » 2. Construction according to claim Λ , characterized in that each horizontal regular figure is a polygon. 3. Construction according to claim 2, characterized in that that the horizontal regular figure is a hexagon, λ a heptagon, an octagon or a hexagon. 4-β construction according to claim 1, characterized in that that the horizontal struts (6) are curved and the regular horizontal struts formed by them Give figures a circular shape. Construction according to one of the preceding claims, characterized in that the inclined struts (4.) are bent at the nodes (5) of each individual horizontal regular figure. ~ ^1Q ~ 109847/1067 6. Construction according to one of claims 1 to 4, characterized characterized in that the inclined struts (6) at the nodes (5) in every second horizontal regular figure are bent. 7th Construction according to one of the preceding claims, characterized in that additional horizontal Struts (8) for stiffening the horizontal rule »Moderate figures on which the inclined struts (6) e
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